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K-ras基因序列对4-(甲基亚硝基氨基)-1-(3-吡啶基)-1-丁酮(NNK)-DNA加合物形成的影响。

K-ras gene sequence effects on the formation of 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK)-DNA adducts.

作者信息

Ziegel Rebecca, Shallop Anthony, Jones Roger, Tretyakova Natalia

机构信息

Department of Medicinal Chemistry, University of Minnesota School of Pharmacy, Minneapolis, Minnesota 55455, USA.

出版信息

Chem Res Toxicol. 2003 Apr;16(4):541-50. doi: 10.1021/tx025619o.

Abstract

The tobacco specific pulmonary carcinogen 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) is metabolically activated to electrophilic species that form methyl and pyridyloxobutyl adducts with genomic DNA, including O(6)-methylguanine, N7-methylguanine, and O(6)-[4-oxo-4-(3-pyridyl)butyl]guanine. If not repaired, these lesions could lead to mutations and the initiation of cancer. Previous studies used ligation-mediated polymerase chain reaction (LMPCR) in combination with PAGE to examine the distribution of NNK-induced strand breaks and alkali labile lesions (e.g., N7-methylguanine) within gene sequences. However, LMPCR cannot be used to establish the distribution patterns of highly promutagenic O(6)-methylguanine and O(6)-[4-oxo-4-(3-pyridyl)butyl]guanine adducts of NNK. We have developed methods based on stable isotope labeling HPLC-electrospray ionization tandem mass spectrometry (HPLC-ESI MS/MS) that enable us to accurately quantify NNK-induced adducts at defined sites within DNA sequences. In the present study, the formation of N7-methylguanine, O(6)-methylguanine, and O(6)-[4-oxo-4-(3-pyridyl)butyl]guanine adducts at specific positions within a K-ras gene-derived double-stranded DNA sequence (5'-G(1)G(2)AG(3)CTG(4)G(5)TG(6)G(7)CG(8)TA G(9)G(10)C-3') was investigated following treatment with activated NNK metabolites. All three lesions preferentially formed at the second position of codon 12 (GGT), the major mutational hotspot for G-->A and G-->T base substitutions observed in smoking-induced lung tumors. Therefore, our data support the involvement of NNK and other tobacco specific nitrosamines in mutagenesis and carcinogenesis.

摘要

烟草特异性肺致癌物4-(甲基亚硝胺基)-1-(3-吡啶基)-1-丁酮(NNK)经代谢激活后生成亲电物质,这些亲电物质与基因组DNA形成甲基和吡啶基氧代丁基加合物,包括O(6)-甲基鸟嘌呤、N7-甲基鸟嘌呤和O(6)-[4-氧代-4-(3-吡啶基)丁基]鸟嘌呤。如果不进行修复,这些损伤可能导致突变并引发癌症。以往的研究使用连接介导的聚合酶链反应(LMPCR)结合聚丙烯酰胺凝胶电泳(PAGE)来检测NNK诱导的基因序列内链断裂和碱不稳定损伤(如N7-甲基鸟嘌呤)的分布。然而,LMPCR不能用于确定NNK的高致突变性O(6)-甲基鸟嘌呤和O(6)-[4-氧代-4-(3-吡啶基)丁基]鸟嘌呤加合物的分布模式。我们开发了基于稳定同位素标记的高效液相色谱-电喷雾电离串联质谱(HPLC-ESI MS/MS)方法,使我们能够准确量化DNA序列中特定位点的NNK诱导加合物。在本研究中,研究了在K-ras基因衍生的双链DNA序列(5'-G(1)G(2)AG(3)CTG(4)G(5)TG(6)G(7)CG(8)TAG(9)G(10)C-3')的特定位置上,经活化的NNK代谢产物处理后N7-甲基鸟嘌呤、O(6)-甲基鸟嘌呤和O(6)-[4-氧代-4-(3-吡啶基)丁基]鸟嘌呤加合物的形成情况。所有这三种损伤都优先在密码子12(GGT)的第二个位置形成,这是在吸烟诱导的肺肿瘤中观察到的G→A和G→T碱基替换的主要突变热点。因此,我们的数据支持NNK和其他烟草特异性亚硝胺参与诱变和致癌过程。

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